Diana E Hun Group Leader for Building Envelope Materials Research and Subprogram Manager for Building Envelopes Contact hunde@ornl.gov | 865.574.5139 All Publications Ambient energy for buildings: Beyond energy efficiency A novel transient infrared imaging method for non-intrusive, low-cost, fast, and accurate air leakage detection in building envelopes Enhancing Commercial Building Energy Efficiency through Automated Air Sealing An experimental toolbox for the physical characterization of thermal insulating polymeric foams Development and performance evaluation of active insulation systems using solid-state thermal switches Optimization of prefabricated component installation using a real-time evaluator (RTE) connection locating system Thermal Resilience of Residential Building with Thermally Anisotropic Building Envelope Connected to Geothermal Sources Component pose reconstruction using a single robotic total station for panelized building envelopes Flat and Level Analysis Tool (FLAT) for real-time automated segmentation and analysis of concrete slab point clouds Cable-Driven Parallel Robot (CDPR) for Panelized Envelope Retrofits: Feasible Workspace Analysis Novel PCM-based fin and tube heat exchanger system for building heating and cooling applications Well-Tunable, 3D-printable, and Fast Autonomous Self-Healing Elastomers Ductile adhesive elastomers with force-triggered ultra-high adhesion strength... Automated tracking of prefabricated components for a real-time evaluator to optimize and automate installation Performance assessment of active insulation systems in residential buildings for energy savings and peak demand reduction Life cycle cost, energy, and carbon emissions of molds for precast concrete: Exploring the impacts of material choices and additive manufacturing NEXT GENERATION OF ARCHITECTURAL PRECAST INSULATED WALL PANELS Automatic point Cloud Building Envelope Segmentation (Auto-CuBES) using Machine Learning Solid and gas thermal conductivity models improvement and validation in various porous insulation materials... Machine learning–assisted prediction of heat fluxes through thermally anisotropic building envelopes Tailorable thermoplastic insulation foam composites enabled by porous-shell hollow glass spheres and expandable thermoplastic microspheres Application of Machine Learning to Assist a Moisture Durability Tool Lightweight Composite Insulated Overclad Panels for Building Retrofits What does it take to “see” air leakage through a building envelope?... Development and Performance Evaluation of of Active Insulation Systems using Solid-State Thermal Switches... Pagination Current page 1 Page 2 Page 3 Next page ›› Last page Last » Key Links Google Scholar ORCID Organizations Energy Science and Technology Directorate Buildings and Transportation Science Division Building Technologies Research Section Building Envelope Materials Research Group User Facilities Building Technologies Research and Integration Center